放射性滑膜切除剂177Lu锡胶体的研制及体内表征。

IF 1.5 4区 医学 Q3 PHARMACOLOGY & PHARMACY Current radiopharmaceuticals Pub Date : 2024-01-01 DOI:10.2174/0118744710252994231024064842
Guldem Mercanoglu, Goksel Alcın, Yusuf Ozturkmen, Tevfik Cermik
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引用次数: 0

摘要

简介:关节炎是一种炎症性疾病,由于各种原因影响身体的一个或多个关节,包括自身免疫性疾病、创伤或感染。在许多情况下,使用各种药物组合(非甾体抗炎药、抗病性抗风湿药物、全身皮质类固醇等)进行传统的长期治疗可以缓解症状,但许多关节需要额外的局部治疗。放射性滑膜切除术(RSV)是目前治疗方案的一种替代方法。近年来,90Y的全球供应短缺,以及177Lu标记的放射性药物在核医学领域的日益使用,都使得开发177Lu标签的微粒并将其作为RSV试剂进行小组测试成为可能。本研究旨在开发177Lu标记的锡胶体制剂,并展示其内在特性。材料和方法:测定了开发的四种制剂的粒度、形状和标记效率。选择标记效率最高的配方进行进一步研究。配方的质量是根据放射性核素、放射化学和微生物纯度进行评估的。通过测定标记效率来评价体外稳定性。在PBS和滑膜液中测试体外稳定性。在将该制剂注射到兔的正常膝关节中后,使用SPECT/CT评估生物学特性。结果:聚集的胶体颗粒为球形,粒径分别为95和97.65%(Rf=0.2)。该制剂在PBS和滑液中均在体外稳定长达72小时。在注射后0和1小时,该制剂在关节中均匀分布,晚期未检测到放射性相关的受累和可能的渗漏引起的腹股沟淋巴结受累。在此期间未观察到热原/过敏副作用。结论:在优化的反应条件下成功制备了177Lu锡胶体,结合效率高,放射化学纯度高。发现放射性标记的胶体在体外PBS和滑膜液中在室温下都是稳定的。一系列PCET/CT图像显示,活性完全保留在滑膜腔内,直到注射后48小时才有活性渗漏出关节。在进一步临床研究结果的支持下,该制剂可能进入临床使用。
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Formulation and In-vivo Characterization of 177Lu-tin-colloid as a Radiosynovectomy Agent.

Introduction: Arthritis is an inflammatory disorder that affects one or more joints of the body for various reasons, including autoimmune disorders, trauma, or infection. In many cases, traditional long-term treatment with various drug combinations (NSAIDs, diseasemodifying antirheumatic drugs, systemic corticosteroids, etc.) can provide relief, but many joints require additional local treatment. Radiosynovectomy (RSV) is an alternative method to current treatment options. Both the global supply shortage of 90Y in recent years and the increasing use of 177Lu-labeled radiopharmaceuticals in the field of nuclear medicine have made it possible to develop 177Lu-labeled microparticles and test them in small groups as RSV agents. This study aimed to develop the 177Lu labeled tin colloid formulation and demonstrate its invivo characterization.

Materials and methods: Particle size, shape, and labelling efficiency of the four formulations developed were determined. The formula with the highest labelling efficiency was selected for further studies. The quality of the formulation was evaluated based on radionuclidic, radiochemical, and microbial purity. In-vitro stability was evaluated by determining the labelling efficiency. In-vitro stability was tested in PBS and synovial fluid. The biological characterization was assessed using SPECT/CT after injecting the formulation into the normal knee joints of the rabbits.

Results: Aggregated colloidal particles were spherical with a particle size of <5 μm. Labelling efficiency and radiochemical purity were >95 and 97.65% (Rf=0.2), respectively. The formulation was stable in vitro for up to 72 hours, both in PBS and synovial fluid. The formulation was homogeneously distributed in the joint at 0 and 1 hour after injection, and radioactivity- related involvement and inguinal lymph node involvement due to possible leakage were not detected in the late period. No pyrogenic/allergic side effects were observed during this period.

Conclusion: 177Lu-tin-colloid was successfully prepared under optimized reaction conditions with high binding efficiency and radiochemical purity. The radiolabeled colloid was found to be stable in-vitro both in PBS and synovial fluid at room temperature. Serial PCET/CT images revealed that the activity was completely retained within the synovial cavity, with no activity leakage out of the joint until 48 hours after the injection. With the support of the results from further clinical studies, it may be possible for the formulation to enter clinical use.

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来源期刊
Current radiopharmaceuticals
Current radiopharmaceuticals PHARMACOLOGY & PHARMACY-
CiteScore
3.20
自引率
4.30%
发文量
43
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